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The physiological interactome of TCR-like antibody therapeutics in human tissues

Author

Listed:
  • Estelle Marrer-Berger

    (Roche Innovation Center Basel)

  • Annalisa Nicastri

    (Old Road Campus Research Building
    Old Road Campus Research Building)

  • Angelique Augustin

    (Roche Innovation Center Basel)

  • Vesna Kramar

    (Roche Innovation Center Zürich)

  • Hanqing Liao

    (Old Road Campus Research Building
    Old Road Campus Research Building)

  • Lydia Jasmin Hanisch

    (Roche Innovation Center Zürich)

  • Alejandro Carpy

    (Roche Innovation Center Munich)

  • Tina Weinzierl

    (Roche Innovation Center Zürich)

  • Evelyne Durr

    (Roche Innovation Center Basel)

  • Nathalie Schaub

    (Roche Innovation Center Basel)

  • Ramona Nudischer

    (Roche Innovation Center Basel)

  • Daniela Ortiz-Franyuti

    (Roche Innovation Center Basel)

  • Ekaterina Breous-Nystrom

    (Roche Innovation Center Basel)

  • Janick Stucki

    (Swiss Organs-on-Chip Innovation)

  • Nina Hobi

    (Swiss Organs-on-Chip Innovation)

  • Giulia Raggi

    (Swiss Organs-on-Chip Innovation)

  • Lauriane Cabon

    (Roche Innovation Center Basel)

  • Emmanuelle Lezan

    (Roche Innovation Center Basel)

  • Pablo Umaña

    (Roche Innovation Center Zürich)

  • Isaac Woodhouse

    (Old Road Campus Research Building
    Old Road Campus Research Building)

  • Alexander Bujotzek

    (Roche Innovation Center Munich)

  • Christian Klein

    (Roche Innovation Center Zürich)

  • Nicola Ternette

    (Old Road Campus Research Building
    Old Road Campus Research Building
    University of Utrecht)

Abstract

Selective binding of TCR-like antibodies that target a single tumour-specific peptide antigen presented by human leukocyte antigens (HLA) is the absolute prerequisite for their therapeutic suitability and patient safety. To date, selectivity assessment has been limited to peptide library screening and predictive modeling. We developed an experimental platform to de novo identify interactomes of TCR-like antibodies directly in human tissues using mass spectrometry. As proof of concept, we confirm the target epitope of a MAGE-A4-specific TCR-like antibody. We further determine cross-reactive peptide sequences for ESK1, a TCR-like antibody with known off-target activity, in human liver tissue. We confirm off-target-induced T cell activation and ESK1-mediated liver spheroid killing. Off-target sequences feature an amino acid motif that allows a structural groove-coordination mimicking that of the target peptide, therefore allowing the interaction with the engager molecule. We conclude that our strategy offers an accurate, scalable route for evaluating the non-clinical safety profile of TCR-like antibody therapeutics prior to first-in-human clinical application.

Suggested Citation

  • Estelle Marrer-Berger & Annalisa Nicastri & Angelique Augustin & Vesna Kramar & Hanqing Liao & Lydia Jasmin Hanisch & Alejandro Carpy & Tina Weinzierl & Evelyne Durr & Nathalie Schaub & Ramona Nudisch, 2024. "The physiological interactome of TCR-like antibody therapeutics in human tissues," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-47062-5
    DOI: 10.1038/s41467-024-47062-5
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    References listed on IDEAS

    as
    1. Pradyot Dash & Andrew J. Fiore-Gartland & Tomer Hertz & George C. Wang & Shalini Sharma & Aisha Souquette & Jeremy Chase Crawford & E. Bridie Clemens & Thi H. O. Nguyen & Katherine Kedzierska & Nicole, 2017. "Quantifiable predictive features define epitope-specific T cell receptor repertoires," Nature, Nature, vol. 547(7661), pages 89-93, July.
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